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The arrangement of resources in patchy landscapes: effects on distribution, survival, and resource acquisition of chironomids (2000)

Silver, P. ; Cooper, J. K. ; Palmer, M. A. ; [et al.]

Springer

Oecologia 124 (2000), S. 216-224

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ISSN: 1432-1939

Keywords: Key words Landscape ecology ; Chironomus riparius ; Density dependence ; Resource patch arrangement ; Life history

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The spatial arrangement of resources in patchy habitats influences the distribution of individuals and their ability to acquire resources. We used Chironomus riparius, a ubiquitous aquatic insect that uses leaf particles as an important resource, to ask how the dispersion of resource patches influences the distribution and resource acquisition of mobile individuals in patchy landscapes. Two experiments were conducted in replicated laboratory landscapes (38×38 cm) created by arranging sand and leaf patches in a 5×5 grid so that the leaf patches were either aggregated or uniformly dispersed in the grid. One-day-old C. riparius larvae were introduced into the landscapes in one of three densities (low, medium, high). In experiment 1, we sampled larvae and pupae by coring each patch in each landscape 3, 6, 12, or 24 days after adding larvae. In experiment 2, emerging adults were collected daily for 42 days from each patch in each landscape. In aggregated landscapes, individuals were aggregated in one patch type or the other during a particular developmental stage, but the ”preferred” type changed depending on developmental stage and initial density. Adult emergence was lower by about 30% in all aggregated landscapes. In dispersed landscapes, individuals used both types of patch throughout their life cycles at all initial densities. Thus, patch arrangement influences the distribution of mobile individuals in landscapes, and it influences resource acquisition even when average resource abundance is identical among landscapes. Regardless of patch arrangement, high initial density caused accumulation of early instars in edge patches, 75% mortality of early instars, a 25% increase in development time, and a 60% reduction in adult emergence. Because mortality was extremely high among early-instar larvae in high-density treatments, we do not have direct evidence that the mechanism by which patch arrangement operates is density dependent. However, the results of our experiments strongly suggest that dispersion of resource patches across a landscape reduces local densities by making non-resource patches available for use, thereby reducing intraspecific competition.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004420050009

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Quinidine inhibits the 7-hydroxylation of chlorpromazine in extensive metabolisers of debrisoquine (1996)

Muralidharan, G. ; Cooper, J. K. ; Hawes, E. M. ; [et al.]

Springer

European journal of clinical pharmacology 50 (1996), S. 121-128

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ISSN: 1432-1041

Keywords: Key words Chlorpromazine ; CYP2D6; 7-hydroxychlorpromazine ; quinidine ; polymorphic metabolism

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Medicine

Notes: Abstract Quinidine is a potent inhibitor of CYP2D6 (debrisoquine 4-hydroxylase). Its effect on the disposition of chlorpromazine was investigated in ten healthy volunteers using a randomised crossover design with two phases. A single oral dose of chlorpromazine hydrochloride (100 mg) was given with and without prior administration of quinidine bisulphate (250 mg). Chlorpromazine and seven of its metabolites were quantified in the 0- to 12-h urine while plasma concentrations of chlorpromazine and 7-hydroxychlorpromazine were measured over 48 h. All volunteers were phenotyped as extensive metabolisers with respect to CYP2D6 using the methoxyphenamine/O-desmethylmethoxyphenamine metabolic ratio. Quinidine significantly decreased the urinary excretion of 7-hydroxylchlorpromazine 2.2-fold. Moreover the urinary excretion of this metabolite correlated inversely (r s = −0.80) with the metabolic ratio. The urinary recoveries of chlorpromazine, chlorpromazine N-oxide, 7-hydroxy-N-desmethylchlorpromazine, N-desmethylchlorpromazine sulphoxide and the total of all eight analytes were unaltered by quinidine. However, quinidine administration caused significant increases in the urinary excretions of chlorpromazine sulphoxide, N-desmethylchlorpromazine and N, N-didesmethylchlorpromazine sulphoxide, which indicated that compensatory increase in these metabolic routes of chlorpromazine might have been responsible for the lack of change observed in the urinary recovery of the parent drug. Quinidine administration produced modest decreases (1.2- to 1.3-fold) in the mean peak plasma concentrations and mean areas under the plasma concentration-time curves of 7-hydroxychlorpromazine and increases (1.3- to 1.4-fold) in these parameters for the parent drug chlorpromazine, but none of these changes reached statistical significance. Based on ANOVA the sample sizes required to detect these differences as significant (α = 0.5) with a probability of 0.8 were determined to vary between 15 and 42. These data suggest that CYP2D6 is involved in the metabolism of chlorpromazine to 7-hydroxychlorpromazine. However, genetic polymorphism in this metabolic process did not play a dominant role in accounting for the extremely large interindividual variations in plasma concentrations encountered with this drug.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002280050079

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